JP2003218733A - Short-distance radio transmitting equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide short-distance radio transmitting equipment whereby, when performing a connective setting by an inquiring procedure between two transmitting modules, slave transmitting modules of other party sides can be surely selected. <P>SOLUTION: In the short-distance radio transmitting equipment, there are conducted a step for transmitting and receiving packets between the transmitting modules by the inquiring procedure, a step for setting the connections with the transmitting modules of the other party sides, and a step for assigning a plurality of high-frequency channels in a specific order by spectral hoppings to transmit high-frequency radio signals bidirectionally between the transmitting modules subjected to the connective settings. Each transmitting module has a high-frequency signal transmitting and receiving portion 1 for transmitting and receiving the high-frequency radio signals, a data processing portion 3 for processing transmitted and received data, and a control portion 7. The control portion 7 restrictively controls the transmission and reception operations of the high-frequency signal transmitting and receiving portion 1 when transmitting and receiving the packets by the inquiring procedure, and the restriction on the transmitting and receiving operation after performing the connective settings with the transmitting modules of the other party sides is released. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a short-distance wireless transmission device, and more particularly, to transmission / reception of packets between a plurality of transmission modules according to an inquiry procedure to establish connection with a partner transmission module. The present invention relates to a short-distance wireless transmission device that sets connection between two transmission modules located closest to each other by reducing power and reception sensitivity.

[0002]

2. Description of the Related Art In recent years, when performing data transmission by wireless transmission between communication devices such as personal computers (personal computers) and mobile phones, transmission modules are respectively connected to these communication devices and are connected via the connected transmission modules. As a transmission method for performing data transmission by wireless transmission, a Bluetooth (BT) (registered trademark) mode transmission method (hereinafter, this transmission method is referred to as a short-distance wireless transmission method) has been receiving attention.

This short-distance wireless transmission system is an ISM that can be used freely as a transmission frequency band without requiring approval.
(Industrial Scientific Me
It utilizes the 2.4 GHz band of the digital) band and has 79 or 23 high frequency channels with a bandwidth of 1 MHz. And this short-range wireless transmission system,
A wireless transmission signal to be transmitted and received is frequency-hopped at fixed time intervals and assigned to any one of a plurality of channels in a specified order and transmitted. Normally, 1600 times per second, 62
The high frequency channel allocation is changed by frequency hopping every 5 microseconds (μS). This short-distance wireless transmission system has an excellent feature that it has a low power consumption characteristic and can be used at low cost, although the effective transmission distance of a wireless transmission signal is a short distance of about 10 to 100 meters.

In this short-distance wireless transmission system, one transmission module (hereinafter referred to as a master transmission module) transmits a wireless transmission signal to a counterpart transmission module (hereinafter referred to as a slave transmission module). When transmitting and receiving, it is necessary to connect and set the master transmission module and the slave transmission module. This connection setting is the procedure by which the master transmission module transmits the device address and the clock to the slave transmission module and synchronizes the time slot and the frequency hopping pattern between these two transmission modules, that is, an inquiry procedure or a paging procedure. ) By procedure.

In this case, the inquiry procedure is executed when the master transmission module does not know what slave transmission module exists within the effective transmission distance of its own wireless transmission signal. It is executed by continuously transmitting the information packet, and the slave transmission module receiving the information packet returns a response packet containing information regarding its own transmission module. On the other hand, the paging procedure is performed when the master transmission module knows whether a specific slave transmission module exists within the effective transmission distance of its wireless transmission signal. This is executed by continuously transmitting packets addressed to the particular slave transmission module which receives the packets and responds to them.

Here, FIG. 3 is a block diagram showing an example of the configuration of a transmission module used in a known short-range wireless transmission system.

As shown in FIG. 3, the transmission module (BT module) includes a high frequency signal transmission / reception unit (RF transmission / reception unit) 31, a modulation / demodulation unit 32, a data processing unit 33, and
The data input / output unit 34 and the hopping pattern forming unit 35
, Frequency synthesizer 36, and control unit (CPU) 37
A transmission / reception antenna 38, a data transmission terminal 39, and a high-frequency signal transmission terminal 40. In addition to this, an external device 41 is connected to the data transmission terminal 39 of the transmission module.

The high-frequency signal transmitting / receiving section 31 has a first
The input / output terminal is connected to the transmitting / receiving antenna 38 through the high-frequency signal transmission terminal 40, and the second input / output terminal is connected to the first input / output terminal of the modulation / demodulation unit 32. The modulator / demodulator 32 has a second input / output terminal connected to the first input / output terminal of the data processing unit 33, and an input terminal connected to the output terminal of the frequency synthesizer 36. The first input / output terminal of the data input / output unit 34 is the data processing unit 33.
Is connected to the second input / output terminal of the external device 41 through the data transmission terminal 39. The output end of the hopping pattern forming unit 35 is connected to the input end of the frequency synthesizer 36. Control unit 37
Is connected to the respective control ends of the high-frequency signal transmitting / receiving unit 31, the modulation / demodulation unit 32, the data processing unit 33, the hopping pattern forming unit 35, and the frequency synthesizer 36.

In this case, the data processing unit 33 converts the transmission data supplied from the data input / output unit 34 into coded data, supplies the coded data to the modulation / demodulation unit 32, and also supplies it from the modulation / demodulation unit 32. The encoded data is converted into received data and supplied to the data input / output unit 34. The hopping pattern forming unit 35 stores a hopping pattern designating a frequency hopping state of a transmission / reception transmission signal as frequency hopping information.
Before starting transmission, the hopping pattern used with the other side transmission module is specified. Frequency synthesizer 3
Reference numeral 6 synthesizes a local oscillation signal having a frequency corresponding to the frequency hopping information sequentially supplied from the hopping pattern forming unit 35, and supplies the obtained local oscillation signal to the modulation / demodulation unit 32. The control unit 37 includes the high frequency signal transmitting / receiving unit 3
1. The operations of the modulation / demodulation unit 32, the data processing unit 33, the hopping pattern forming unit 35, and the frequency synthesizer 36 are collectively controlled. Further, the external device 41 is a device that generates transmission data and receives reception data during operation, and is connected to other external devices (also not shown) through this transmission module and the partner transmission module (not shown). Data is transmitted and received between them.

The transmission module having the above structure operates as follows.

When the transmission data is supplied from the external device 41 to the data transmission terminal 39, the data input / output unit 34 supplies the transmission data to the data processing unit 33. Data processing unit 3
Reference numeral 3 converts the supplied transmission data into coded data, selects one high-frequency channel in the converted coded data, and sequentially supplies it to the modem unit 32. Modulator / demodulator 32
When the high frequency channel for transmission arrives and the coded data for one high frequency channel is supplied, the coded data is used to supply the local oscillation signal specified by the high frequency channel for transmission supplied from the frequency synthesizer 36. Are modulated to form a transmission signal and supplied to the high frequency signal transmission / reception unit 31. The high frequency signal transmission / reception unit 31 converts the transmission signal supplied from the modulation / demodulation unit 32 into a predetermined level, supplies the converted transmission signal to the transmission / reception antenna 38 through the high frequency signal transmission terminal 40, and transmits it as a wireless transmission signal from the transmission / reception antenna 38. To do.

When a high frequency channel for reception arrives and the transmission / reception antenna 38 captures a high frequency radio signal transmitted by the partner transmission module, a reception signal based on the high frequency radio signal is transmitted / received through the high frequency signal transmission terminal 40. Is supplied to the section 31. High frequency signal transmitter / receiver 31
Converts the received signal into a predetermined level and supplies the converted received signal to the modulation / demodulation unit 32. The modulation / demodulation unit 32 demodulates the supplied reception signal using the local oscillation signal specified by the high frequency channel for reception supplied from the frequency synthesizer 36, forms coded data, and converts the coded data into data. It is supplied to the processing unit 33. The data processing unit 33 converts the supplied coded data for one high frequency channel into reception data, and supplies the converted reception data to the data input / output unit 34. The data input / output unit 34 converts the sequentially supplied reception data into continuous reception data, and supplies the obtained reception data to the external device 41 through the data transmission terminal 39.

Next, FIG. 4 is an explanatory view showing an example of frequency hopping of a high frequency radio signal designated as a transmission / reception high frequency channel in a known transmission module.

In FIG. 4, the vertical axis represents the power of the transmission / reception signal, and the horizontal axis represents the transmission / reception signal frequency.

As shown in FIG. 4, the transmission / reception signal frequency of this transmission module is such that when the signal frequency transmitted at the arrival of the first reception high frequency channel is f (x), the next transmission high frequency channel. The frequency of the signal transmitted at the time of arrival of frequency is frequency hopped to f (x + 1), and the frequency of the signal transmitted at the time of arrival of the next high frequency channel for reception is frequency hopped to f (x + 2), and the frequency for next transmission. The signal frequency transmitted at the arrival of the high frequency channel is frequency hopped to f (x + 3). Similarly, the signal frequency transmitted at the arrival of the next reception high frequency channel becomes f (x + 4) The signal frequency transmitted at the arrival of the high frequency channel for transmission of is f (x + 5), and the signal frequency transmitted at the arrival of the next high frequency channel for reception of The number f (x + 6), the signal frequency to be transmitted during the arrival of the next transmitting high-frequency channel f (x
+7), the signal frequency f transmitted at the arrival of the next reception high frequency channel is (x + 8), and the signal frequency f transmitted at the arrival of the next transmission high frequency channel is (x + 9).
Frequency hopping.

The frequency hopping to such signal frequencies f (x) to f (x + 9) is controlled by the control unit 37 when the respective transmission / reception high frequency channels arrive and the frequency corresponding to the high frequency channel. The hopping information is output from the hopping pattern forming unit 35, the local oscillation signal of a predetermined frequency output from the frequency synthesizer 36 is synthesized by the frequency hopping information, and each high frequency of the high frequency radio signal transmitted and received by the synthesized local oscillation signal. The channel is specified.

[0017]

SUMMARY OF THE INVENTION The known short-distance wireless transmission system, when transmitting and receiving wireless transmission signals between a master transmission module and a slave transmission module,
The connection setting between the master transmission module and the slave transmission module is performed by the inquiry procedure or the paging procedure. And when making this connection setting,
If the master transmission module selects the inquiry procedure, and when the master transmission module sends a broadcast packet, if there are multiple slave transmission modules within the effective transmission distance of the wireless transmission signal of the master transmission module, The master transmission module receives the response packet transmitted from each of the plurality of slave transmission modules, and has to select the partner slave transmission module that transmits and receives the wireless transmission signal. If the number of slave transmission modules is relatively large, it becomes difficult to select the other slave transmission module.

The present invention has been made in view of the above technical background, and an object thereof is to surely select a slave transmission module on the partner side when setting a connection between two transmission modules by an inquiry procedure. An object of the present invention is to provide a short-range wireless transmission device capable of performing the above.

[0019]

In order to achieve the above object, the present invention performs packet transmission / reception between a plurality of transmission modules according to an inquiry procedure and establishes a connection setting with a counterpart transmission module to be wirelessly transmitted. A short-range wireless transmission device that performs bidirectional transmission of high-frequency wireless signals between transmission modules that have been set and connected by frequency hopping in one of a plurality of high-frequency channels in a specified order. A high-frequency signal transmission / reception unit for transmitting / receiving signals, a data processing unit for processing transmission / reception data, and a control unit for overall control of the overall operation are provided. At times, the transmission / reception operation is restricted, and the connection setting with the transmission module on the other side is not performed. When includes means limiting the transmitting and receiving operation is removed.

According to the above means, when the connection setting between the self-transmission module and the counterpart transmission module is performed by the inquiry procedure, the transmission / reception operation of the high-frequency signal transmission / reception unit is restricted by the control of the control unit to enable the effective transmission of the wireless transmission signal. Since the transmission distance is shortened, even if there are multiple transmission modules within the original effective transmission distance of the wireless transmission signal of the self-transmission module, only the transmission module closest to the self-transmission module is Since the other party transmission module is selected, the other party slave transmission module can be surely selected.

Further, in the above means, the limitation of the transmission / reception operation in the high frequency signal transmission / reception section is to reduce the transmission power and the reception sensitivity.

With this structure, the effective transmission distance of the wireless transmission signal can be shortened by a relatively simple means.

[0023]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows an embodiment of a short-distance wireless transmission device according to the present invention, and is a block diagram showing the configuration of the main part thereof, showing an example in which the short-distance wireless transmission device is a transmission module. It is a thing.

As shown in FIG. 1, a transmission module (BT module) according to this embodiment has a high frequency signal transmission / reception unit (RF transmission / reception unit) 1, a modulation / demodulation unit 2, a data processing unit 3, and a data input / output unit. Unit 4, hopping pattern forming unit 5, frequency synthesizer 6, control unit (CP
U) 7, an operation setting unit 8, a data transmission terminal 9, a high frequency signal transmission terminal 10, and a transmission / reception antenna 11. In addition to this, the transmission module includes an external device 12 connected to the data transmission terminal 9.

The high-frequency signal transmitting / receiving unit 1 has a first input / output terminal connected to the transmitting / receiving antenna 11 through the high-frequency signal transmission terminal 10, and a second input / output terminal connected to the first input / output terminal of the modulation / demodulation unit 2. The control end is connected to the output end of the operation setting unit 8. The modulator / demodulator 2 has a second input / output terminal connected to the first input / output terminal of the data processing unit 3, and an input terminal connected to the output terminal of the frequency synthesizer 6. The data processing unit 3 is the second
The input / output terminal is connected to the first input / output terminal of the data input / output unit 4. The second input / output terminal of the data input / output unit 4 is connected to the input / output terminal of the external device 11 through the data transmission terminal 9. The hopping pattern forming unit 5 has an output end connected to an input end of the frequency synthesizer 6. The control section 7 is connected to the control terminals of the high-frequency signal transmitting / receiving section 1, the modulation / demodulation section 2, the data processing section 3, the hopping pattern forming section 5, the frequency synthesizer 6, and the operation setting section 8, respectively.

In this case, the data processing unit 3 converts the transmission data supplied from the data input / output unit 4 into coded data, supplies the coded data to the modulation / demodulation unit 2 and the modulation / demodulation unit 2. The encoded data is converted into received data and supplied to the data input / output unit 4. The hopping pattern forming unit 5 stores a hopping pattern designating a frequency hopping state of a transmission / reception wireless transmission signal as frequency hopping information. The designation is made. The frequency synthesizer 6
The local oscillation signal having a frequency corresponding to the frequency hopping information sequentially supplied from the hopping pattern forming unit 5 is synthesized, and the obtained local oscillation signal is supplied to the modulation / demodulation unit 2. The control unit 7 includes a high frequency signal transmitting / receiving unit 1, a modulation / demodulation unit 2, a data processing unit 3, a data input / output unit 4, a hopping pattern forming unit 5, a frequency synthesizer 6, and an operation setting unit 8.
Control each operation of. Also, the external device 11 is
A device that generates transmission data and receives reception data during operation, and data is transmitted and received between this transmission module and another external device (also not shown) through this transmission module (not shown). Be seen.

Next, FIGS. 2 (a) and 2 (b) are characteristic diagrams showing a change state of the effective transmission distance of the wireless transmission signal in the short distance wireless transmission device shown in FIG. Is the original effective transmission distance of the wireless transmission signal, and (b) is the shortened effective transmission distance of the wireless transmission signal.

As shown in FIG. 2A, when the high frequency signal transmitting / receiving unit 1 is performing a normal transmitting / receiving operation, the effective transmission distance of the wireless transmission signal is about 100 m. On the other hand, as shown in FIG. 2B, when the high frequency signal transmission / reception unit 1 shifts to the limited transmission / reception operation, the effective transmission distance of the wireless transmission signal is limited to about 10 m or less.

Here, the operation of the transmission module used in the short-range wireless transmission device according to this embodiment will be described.

First, when connection setting is performed between one transmission module (hereinafter, referred to as self-transmission module) and another transmission module for wireless transmission (hereinafter, referred to as partner transmission module). The operation will be described.

When the self-transmission module transmits / receives a wireless transmission signal to / from the partner transmission module, the connection between the self-transmission module and the partner transmission module is set prior to the transmission / reception. When this connection setting is performed, if the self-transmission module selects the connection setting by the inquiry procedure, the setting state of the operation setting unit 8 is changed by the control of the control unit 7, and the setting state of the operation setting unit 8 is changed. The transmitting / receiving operation of the high frequency signal transmitting / receiving unit 1 is restricted. Accordingly, the effective transmission distance of the wireless transmission signal transmitted from the self-transmission module is shown in FIG.
2 (b) from about 100 m as shown in (a).
It is limited to about 10 m or less as shown in.

When the effective transmission distance of the wireless transmission signal is thus limited, the arrival distance of the broadcast packet continuously transmitted from the self-transmission module is also limited, so that the transmission module that can receive this broadcast packet is limited. However, only the partner transmission module located closest to the self-transmission module can receive the broadcast packet. Upon receiving this broadcast packet, the partner transmission module returns a response packet containing information about the partner transmission module, thereby establishing the connection between the self-transmission module and the partner transmission module. When this connection setting is performed, the self-transmission module transmits the device address and the clock to the transmission module on the other side, as is usually done by this kind of short-distance wireless transmission method, and the transmission between these two transmission modules is performed. Synchronizes the time slot with the frequency hopping pattern.

After that, when the connection setting between the self-transmission module and the partner transmission module is performed, the self-transmission module returns the setting state of the operation setting unit 8 to the original setting state by the control of the control unit 7. By the restoration of the setting state of the operation setting unit 8, the limitation of the transmission / reception operation of the high frequency signal transmission / reception unit 1 is released, and the normal transmission / reception operation is performed.

In this case, in order to limit the transmission / reception operation in the high frequency signal transmission / reception unit 1, specifically, it is preferable to reduce the transmission power of the signal transmission circuit and the reception sensitivity of the signal reception circuit. However, other than this, it may be a means for changing the arrangement state or the arrangement angle of the transmission / reception antenna 11, or any other means.

Next, the operation when the self-transmission module transmits / receives a wireless transmission signal to / from the partner transmission module will be described. In this case, the self-transmission module and the other-side transmission module perform almost the same operation except that the transmission / reception states are reversed. Therefore, in the following description, the operation on the self-transmission module side will be described for convenience.

When the transmission data output from the external device 12 is supplied to the data transmission terminal 9, the data input / output unit 4
Supplies the transmission data to the data processing unit 3. The data processing unit 3 converts the supplied transmission data into coded data, selects the converted coded data for each high frequency channel, and supplies the selected coded data to the modulation / demodulation unit 2. When the high frequency channel for transmission arrives and the coded data for each high frequency channel is supplied from the data processing section 3 to the modulation / demodulation section 2, the high frequency wave for transmission supplied from the frequency synthesizer 6 using the coded data. The local oscillation signal designated by the channel is modulated to form a transmission signal and supplied to the high frequency signal transmission / reception unit 1. The high frequency signal transmitter / receiver 1 includes a modulator / demodulator 2
Convert the transmission signal supplied from to a predetermined transmission level,
The converted transmission signal is supplied to the transmission / reception antenna 11 through the high frequency signal transmission terminal 10, and is transmitted from the transmission / reception antenna 11 as a high frequency wireless signal.

Next, when a high frequency radio channel for reception arrives and the high frequency radio signal transmitted by the communication module on the other side is captured by the transmission / reception antenna 11, the received signal based on the captured high frequency radio signal is transmitted through the high frequency signal transmission terminal 10 to the high frequency signal. It is supplied to the transceiver 1. The high frequency signal transmission / reception unit 1 converts the supplied reception signal into a predetermined level and supplies the converted reception signal to the modulation / demodulation unit 2. The modem unit 2
The supplied reception signal is demodulated by using the local oscillation signal supplied from the frequency synthesizer 6 and designated for the high frequency channel for reception to form coded data for each high frequency channel. The formed coded data for each high frequency channel is supplied from the modulation / demodulation unit 2 to the data processing unit 3. The data processing unit 3 converts the sequentially supplied coded data for each high frequency channel into received data,
The converted received data is supplied to the data input / output unit 4. The data input / output unit 4 converts the sequentially received reception data into continuous reception data, and supplies the obtained reception data to the external device 12 through the data transmission terminal 9.

As described above, according to the short-distance wireless transmission device (self-transmission module) of this embodiment, when the connection setting with the partner transmission module is performed by the inquiry procedure, the high frequency signal is controlled by the control unit 7. Since the transmission / reception operation of the transmission / reception unit 1 is limited, even if a plurality of transmission modules exist within the original effective transmission distance of the wireless transmission signal of the self-transmission module, the transmission closest to the self-transmission module is performed. Only the module is selected as the other party transmission module, and the other party slave transmission module can be surely selected.

In the above embodiment, the effective transmission distance of the wireless transmission signal during the normal operation of the high frequency signal transmitting / receiving unit 1 is about 100 m, and the effective transmission distance of the wireless transmission signal during the limiting operation is about 10 m. Although the following description has been given by way of example, the effective transmission distance of each wireless transmission signal in the normal operation and the limited operation according to the present invention is not limited to the above example, and the difference in the effective transmission distance between them is clear. If,
Of course, other effective transmission distances are possible.

[0041]

As described above, according to the present invention, when the connection setting between the self-transmission module and the counterpart transmission module is performed by the inquiry procedure, the transmission / reception operation of the high-frequency signal transmission / reception unit is limited by the control of the control unit. However, since the effective transmission distance of the wireless transmission signal is shortened,
Even if there are multiple transmission modules within the original effective transmission distance of the wireless transmission signal of the self-transmission module,
Only the transmission module closest to the self-transmission module is selected as the partner transmission module, and the partner slave transmission module can be reliably selected.

[Brief description of drawings]

FIG. 1 is a block diagram showing one embodiment of a short-distance wireless transmission device according to the present invention and showing a main configuration thereof.

FIG. 2 is a characteristic diagram showing a state in which the effective transmission distance of a wireless transmission signal changes in the short-range wireless transmission device shown in FIG.

FIG. 3 is a block diagram showing an example of a configuration of a transmission module used in a known short-range wireless transmission system.

FIG. 4 is an explanatory diagram showing an example of frequency hopping of a high frequency radio signal designated as a transmission / reception high frequency channel in a known transmission module.

[Explanation of symbols]

1 High frequency signal transceiver (RF transceiver) 2 Modulator / demodulator 3 Data processing unit 4 Data input / output section 5 Hopping pattern forming section 6 frequency synthesizer 7 Control unit (CPU) 8 operation setting section 9 Data transmission terminal 10 High frequency signal transmission terminal 11 transmitting and receiving antenna 12 External device

Claims (2)

[Claims] 1. A packet is transmitted / received between a plurality of transmission modules by an inquiry procedure, a connection is set with a partner transmission module to be wirelessly transmitted, and a high frequency radio signal is frequency-hopped between the transmission modules having the connection set. A short-range wireless transmission device that performs bidirectional transmission by designating in any one of a plurality of high-frequency channels in a specified order, wherein each transmission module processes a transmission / reception data with a high-frequency signal transmission / reception unit that transmits / receives a high-frequency wireless signal. The high-frequency signal transmission / reception unit includes a data processing unit and a control unit that controls the overall operation. The high-frequency signal transmission / reception unit restricts the transmission / reception operation during packet transmission / reception according to the inquiry procedure under the control of the control unit. When the connection setting with the A short-range wireless transmission device characterized by the above. 2. The short-range wireless transmission device according to claim 1, wherein the transmission / reception operations of the high-frequency signal transmission / reception unit are limited to reduce transmission power and reception sensitivity.